论文信息 - A New Low-Temperature Dislocation-Relaxation Peak in Aluminum

A New Low-Temperature Dislocation-Relaxation Peak in Aluminum

Amplitude-independent internal friction measurement is made on a zone-refined aluminum single crystal between 2–240 K by a composite oscillator method. In the lightly deformed state \(({\lesssim}10^{-4})\), a new relaxation peak is clearly found at 11 K. The activation energy of this peak is derived to be about 0.01 eV by assuming the attack frequency f 0 =10 10 s -1 , and if the peak is due to the kink pair formation of the dislocation on the Peierls potential valley, the Peierls stress is estimated to be about 10 -5 µ (µ: shear modulus), which does not conflict with the yield stress of low-temperature plastic deformation measurements.

T. Kino | T. Kosugi

[1] W. Benoit,et al. Internal friction and microdeformation due to the intrinsic properties of dislocations: The Bordoni relaxation , 1982 .

[2] T. Kino,et al. Deviations from Matthiessen's Rule on the Surface Scattering in Aluminum , 1980 .

[3] T. Kino,et al. Study on the Trace Elements in Zone-Refined Aluminum , 1977 .

[4] E. Lax. Acoustic Attenuation in Aluminum due to Electron-Lattice Interaction , 1959 .

[5] E. Lax,et al. Second Low-Temperature Peak in the Internal Friction of Aluminum , 1959 .

[6] A. Seeger. LXV. On the theory of the low-temperature internal friction peak observed in metals , 1956 .